Abstract: A method of treating a soft palate in a patient may involve advancing a tissue treatment portion of a soft palate treatment device through the patient's mouth, contacting a treatment surface of the tissue treatment portion with mucosal tissue of the soft palate, and delivering energy from the tissue treatment portion through the mucosal tissue to a target tissue in the soft palate beneath to the mucosal tissue, to change at least one property of the target tissue. The method may further involve cooling the mucosal tissue with a cooling member on the treatment surface of the tissue treatment portion and removing the tissue treatment portion from the mouth.

Abstract: The present invention relates to the treatment of a wastewater stream that is generated from animal processing such as the processing of chicken, beef or pork. More particularly, the present invention relates to the separation of usable protein from an animal processing wastewater stream using a density modifier and a modification of the protein phase density to enhance lipid fat phase separation from protein solids.

Abstract: An array that focuses UVC light energy from a UVC light source into a beam and thereby reduces the degradation of UVC light energy at a set distance. Singular or plural optics, or lens assemblies forming the array can each use a Diffractive Optical Element (“DOE”) with a beam width of UVC energy with acceptable transmission through the DOE, which transmits a UVC beam through a relay lens which thereby allows an extended distance greater that the fall off rate of the standard UVC energy source. Lens assemblies can include a series of spacers and lenses that allow the manipulation of a wide angle UVC light source for the purpose of focusing the light to a desired beam shape, i.e., a thin line or bar, or a pin point. Each of the optics may have one or more spacers set at a specific width to add to the total beam shaping of the lenses.

Abstract: A method for enhancing data quality of a drug dose dispense data set to automatically provide dispense data reflecting actually injected dose amounts. For a given dispense session the method comprises the steps of creating a list of possible dispense patterns in accordance with a set of pattern rules and then for each pattern in the list calculate a weight allowing a winning pattern to be determined. Each dispense pattern is a particular sequence of priming events and injection events, with each dispense pattern being a possible interpretation of the dispense events in the current session. For each pattern a combined pattern weight being the product of weight factors for each dispense in the pattern is calculated, wherein each weight factor is determined in accordance with a weight factor vs dispense size function for the given dispense type and dispense size, wherein the larger the dispense size, the more likely it is to represent an injection event and the less likely it is to represent a priming event.

Abstract: A dosage sensing module for or in a pen drug delivery device and a method of assembling the same. The module comprises a housing consisting of a first and second housing part, a power source unit, a processor unit and a dosage sensor unit with a first sensor part adapted to be fixed to a part not rotating during dose expelling and comprising a printed circuit board on which a pattern of individual electrical conductive sensor areas are arranged. The sensor unit further comprises a second sensor part adapted to be fixed to the piston rod to follow the rotation thereof during dose expelling. The second sensor part comprises individual structures that together with the conductive sensor areas are adapted to, upon relative rotational movement between the first and second sensor part, provide electrical signals to a processor unit indicative of the relative rotational position between the first and second sensor part.

Abstract: Systems and corresponding control methods providing a ballistic robot that flies on a trajectory after being released (e.g., in non-powered flight as a ballistic body) from a launch mechanism. The ballistic robot is adapted to control its position and/or inflight movements by processing data from onboard and offboard sensors and by issuing well-timed control signals to one or more onboard actuators to achieve an inflight controlled motion. The actuators may move an appendage such as an arm or leg of the robot or may alter the configuration of one or more body links (e.g., to change from an untucked configuration to a tucked configuration), while other embodiments may trigger a drive mechanism of an inertia moving assembly to change/move the moment of inertia of the flying body. In-flight controlled movements are performed to achieve a desired or target pose and orientation of the robot during flight and upon landing.

Abstract: Systems, methods, and computer program products for performing an operation comprising detecting a first mobile device within a predefined proximity of a display device, receiving profile data from the first mobile device, identifying at least one rule for selecting media content based on the profile data, selecting, based on the at least one rule applied to the profile data, a first item of media content of a plurality of items of media content, and outputting the first item of media content for display on the display device.

Abstract: Systems, methods, and computer program products for performing an operation comprising detecting a first mobile device within a predefined proximity of a display device, receiving profile data from the first mobile device, identifying at least one rule for selecting media content based on the profile data, selecting, based on the at least one rule applied to the profile data, a first item of media content of a plurality of items of media content, and outputting the first item of media content for display on the display device.

Abstract: Systems, methods, and computer program products for performing an operation comprising detecting a first mobile device within a predefined proximity of a display device, receiving profile data from the first mobile device, identifying at least one rule for selecting media content based on the profile data, selecting, based on the at least one rule applied to the profile data, a first item of media content of a plurality of items of media content, and outputting the first item of media content for display on the display device.

Abstract: Systems and corresponding control methods providing a ballistic robot that flies on a trajectory after being released (e.g., in non-powered flight as a ballistic body) from a launch mechanism. The ballistic robot is adapted to control its position and/or inflight movements by processing data from onboard and offboard sensors and by issuing well-timed control signals to one or more onboard actuators to achieve an inflight controlled motion. The actuators may move an appendage such as an arm or leg of the robot or may alter the configuration of one or more body links (e.g., to change from an untucked configuration to a tucked configuration), while other embodiments may trigger a drive mechanism of an inertia moving assembly to change/move the moment of inertia of the flying body. Inflight controlled movements are performed to achieve a desired or target pose and orientation of the robot during flight and upon landing.

Abstract: Systems and corresponding control methods providing a ballistic robot that flies on a trajectory after being released (e.g., in non-powered flight as a ballistic body) from a launch mechanism. The ballistic robot is adapted to control its position and/or inflight movements by processing data from onboard and offboard sensors and by issuing well-timed control signals to one or more onboard actuators to achieve an inflight controlled motion. The actuators may move an appendage such as an arm or leg of the robot or may alter the configuration of one or more body links (e.g., to change from an untucked configuration to a tucked configuration), while other embodiments may trigger a drive mechanism of an inertia moving assembly to change/move the moment of inertia of the flying body. Inflight controlled movements are performed to achieve a desired or target pose and orientation of the robot during flight and upon landing.

Abstract: An apparatus for sterilizing airport security scanner bins includes a housing having a housing bottom support, housing sidewalls, and a housing top wall, the housing having an open front housing end and an open back housing end. The apparatus includes a top UV radiator, and side UV radiators within the housing and front and back UV radiators. The housing and the open front and back ends are sized to allow an airport security scanner bin to pass through the housing while being radiated with UV light on a top, bottom, front wall, back wall and sidewalls of the bin. The housing bottom support can be a conveyor.

Abstract: Systems, methods and articles of manufacture to perform an operation comprising receiving, from one of a plurality of stations, a message which includes at least a random number and a first hash value of the random number concatenated with a first key, comparing the first hash value to one or more second hash values, wherein each second hash value is generated by hashing the random number concatenated with one of a plurality of second keys and wherein each second key corresponds to a registered device of a device identification system, upon determining the first hash value matches one of the second hash values, determining an identity of the mobile device based on the corresponding second key, and based on the location of the station which sent the message, assigning a location to the mobile device.

Abstract: Systems and corresponding control methods providing a ballistic robot that flies on a trajectory after being released (e.g., in non-powered flight as a ballistic body) from a launch mechanism. The ballistic robot is adapted to control its position and/or inflight movements by processing data from onboard and offboard sensors and by issuing well-timed control signals to one or more onboard actuators to achieve an inflight controlled motion. The actuators may move an appendage such as an arm or leg of the robot or may alter the configuration of one or more body links (e.g., to change from an untucked configuration to a tucked configuration), while other embodiments may trigger a drive mechanism of an inertia moving assembly to change/move the moment of inertia of the flying body. Inflight controlled movements are performed to achieve a desired or target pose and orientation of the robot during flight and upon landing.

Abstract: A system for transmitting motive force. The system includes a conduit or tube and a plurality of balls (e.g., spherical objects) positioned within the tube. The system includes a drive assembly moving the balls within the tube, and the system includes an actuated element operating to generate an output in response to movement of the balls within the tube. In some cases, the balls are metal ball bearings, and the tubing is one of polyethylene tubing, tubing with a metal lining, or tubing having a hardness greater than a hardness of polyethylene. The drive assembly may include a feed screw driven by a motor to provide positive displacement of the balls in the tube. The actuated element may take a variety of forms to practice the system. For example, the actuated element may be a linear or rotational actuator, e.g., an actuator used to actuate a robotic joint.

Abstract: A system for providing an interactive experience for multiple game-players. The experience is provided in a light-controlled setting where the game-players may wear or hold one or more of various toys (e.g., gloves). The system detects and recognizes the toy along with gestures and pointing efforts performed by the game-player and the system generates an effect based on the type of toy and the type of gesture. The system also generates one or more visual targets that are visible to the game-player such as projections, holograms, and displays of one or more of various fantasy virtual adversaries. The generated effects may include any combination of sensory effects including visual, audio, tactile, and smell/taste. The generated effect may be directed based on the pointing efforts of the game-player. The system may then register the effect on the target, if the pointing efforts intersect with the virtual location of the target.

Abstract: Systems, methods, and computer program products for performing an operation comprising detecting a first mobile device within a predefined proximity of a display device, receiving profile data from the first mobile device, identifying at least one rule for selecting media content based on the profile data, selecting, based on the at least one rule applied to the profile data, a first item of media content of a plurality of items of media content, and outputting the first item of media content for display on the display device.

Abstract: Systems, methods and articles of manufacture to perform an operation comprising receiving, from one of a plurality of stations, a message which includes at least a random number and a first hash value of the random number concatenated with a first key, comparing the first hash value to one or more second hash values, wherein each second hash value is generated by hashing the random number concatenated with one of a plurality of second keys and wherein each second key corresponds to a registered device of a device identification system, upon determining the first hash value matches one of the second hash values, determining an identity of the mobile device based on the corresponding second key, and based on the location of the station which sent the message, assigning a location to the mobile device.

Abstract: A system for transmitting motive force. The system includes a conduit or tube and a plurality of balls (e.g., spherical objects) positioned within the tube. The system includes a drive assembly moving the balls within the tube, and the system includes an actuated element operating to generate an output in response to movement of the balls within the tube. In some cases, the balls are metal ball bearings, and the tubing is one of polyethylene tubing, tubing with a metal lining, or tubing having a hardness greater than a hardness of polyethylene. The drive assembly may include a feed screw driven by a motor to provide positive displacement of the balls in the tube. The actuated element may take a variety of forms to practice the system. For example, the actuated element may be a linear or rotational actuator, e.g., an actuator used to actuate a robotic joint.

Abstract: A multi-theater light source for two or more 3D projectors positioned in differing spaces. The apparatus includes a first light source outputting light to display left eye content, and the apparatus includes a second light source outputting light for use by the projectors to display right eye content. The apparatus includes a switching device that receives the light output from the first and second light sources and switches between first and second operating states to route the left and right eye light. In the first operating state, the switching device directs the light from the first light source toward a first projector and the light output from the second light source toward a second projector. In the second operating state, the switching device directs the light output from the first light source toward the second projector and the light output from the second light source toward the first projectors.